CN104905475A - Damping structure of sole and damping shoe comprising damping structure - Google Patents

Abstract

The invention discloses a damping structure of a sole. The damping structure comprises damping elements formed in a front sole and / or a back sole region. Each damping element is provided with a main damping body and an externally-cladding edge cladded at the side edge of the main damping body. Each main damping body and each externally-cladding edge extend along an up-down direction and support treading force which is necessarily borne by the shoe. First elastic material is adopted by each main damping body. Second elastic material is adopted by each externally-cladding edge. The elasticity of first elastic material is greater than that of second elastic material. Anti-aging performance of second elastic material is greater than that of first elastic material. The damping structure of the sole and the damping shoe comprising the damping structure have following beneficial effects: on the condition that better elasticity is required by damping of the sole, features such as flexibility resistance and high ageing resistance are obtained so that better damping performance is ensured in a long service lifetime.

Description

A kind of sole shock structure and comprise the damping shoe of this shock-damping structure

Technical field

The present invention relates to shoes field, what be specifically related to is a kind of sole shock structure and the damping shoe comprising this shock-damping structure.

Background technology

In order to reduce walking, running, jump the bad vibrations produced human body, increase elasticity when moving, prevent ankle injury, the producer of footwear often increases shock-damping structure on sole.Better damping scheme praised highly in the market generally has two kinds, one arranges air cushion, another kind adopts the elastomer made by elastomeric material newly developed, but through the applicant's manufacture experience for many years, domestic processed air cushion or elastomer are under the prerequisite meeting folding resistance or ageing resistance, and its actual damping effect cannot reach satisfied result all the time.

Such as Chinese patent CN102823992A discloses a kind of shock-absorbing sole, comprise sole body, the half sole of described sole body and the rear palm are provided with multiple damper element be made up of elastomeric material, described damper element is cylindrical, the outer wall of this damper element is formed with screw thread, this damper element inside in hollow state, and preferably, described damper element and described sole body integrally formed.Its core is by forming screw thread and allow damper element inner hollow two means on outer wall, increases the deflection of damper element when pressurized, and then promotes the damping effect of shock-absorbing sole.

Above-mentioned patent document is pointed out, its damper element can adopt quality of rubber materials to make, and by arranging screw thread and hollow structure, really can have on damping performance and preferably show, but in folding resistance, ageing resistance, namely service life this angle, it often cannot reach corresponding index, namely above-mentioned patent document in use for some time, and its caoutchouc elasticity is easily aging, do not reach actual damping effect.

For the problems referred to above, the applicant, for above-mentioned defect further investigation of the prior art, has this case to produce then.

Summary of the invention

Main purpose of the present invention is to provide a kind of sole shock structure, and it is meeting under better flexible condition needed for sole shock, also has folding resistance, feature that ageing resistance is strong, thus can ensure preferably damping performance in very long length of life.

In order to reach above-mentioned purpose, solution of the present invention is:

A kind of sole shock structure, wherein, comprise several damper elements being formed in half sole and/or rear palm region, each damper element all has shock-absorbing main bodies and is coated on the outsourcing edge of shock-absorbing main bodies lateral margin, this shock-absorbing main bodies and outsourcing edge extend to support the pedal force born needed for shoes all along the vertical direction, this shock-absorbing main bodies adopts the first elastomeric material to make, this outsourcing edge adopts the second elastomeric material to make, the elasticity of this first elastomeric material is better than the second elastomeric material, and the ageing resistace of this second elastomeric material is better than the first elastomeric material.

Further, the thickness of this outsourcing edge is less than the thickness of shock-absorbing main bodies.

Further, this first elastomeric material selects EVA, TPE or rubber, and this second elastomeric material selects TPU or nylon.

Further, this outsourcing edge and shock-absorbing main bodies have and are in conplane upper bottom surface and be in conplane bottom surface.

Further, this outsourcing edge outside wall surface is in corrugated from top to bottom, and this outsourcing edge internal face is a cylinder shape inner wall face, and this shock-absorbing main bodies is cylindrical and is close to the internal face of outsourcing edge and is connected.

Further, bottom outside wall surface ripple place, locate still there is certain thickness second elastomeric material between this outsourcing edge outside wall surface and internal face.

Another object of the present invention is to provide a kind of damping shoe comprising this shock-damping structure, the upper of a shoe that this damping shoe comprises sole and is connected with sole, this sole is provided with above-mentioned sole shock structure.

After adopting said structure, a kind of sole shock structure that the present invention relates to and the damping shoe comprising this shock-damping structure, it is by the setting of shock-absorbing main bodies, allows each damper element can have enough elasticity; Again by arranging outsourcing edge outside shock-absorbing main bodies, allow each damper element can have enough ageing resistances, namely the present invention is by Overmolded outsourcing edge outside shock-absorbing main bodies, utilizes this design feature, and then achieve balance on shock absorbing resilient and ageing resistance two technology point.

In addition, the present invention allows outsourcing edge have thinner thickness, mold wave structure from top to bottom in its outside wall surface again, so compensate for outsourcing edge based on Material selec-tion the weakness at shock absorbing resilient, and then create the good and durable sole shock structure of damping performance and damping shoe.

Accompanying drawing explanation

Fig. 1 is the sectional view that the present invention relates to a kind of sole shock structure.

Fig. 2 the present invention relates to a kind of sole shock structure to be applied in structural representation in damping shoe.

In figure:

Sole-1; Upper of a shoe-2;

Damper element-3; Outsourcing edge-31; Shock-absorbing main bodies-32.

Detailed description of the invention

In order to explain technical scheme of the present invention further, below by specific embodiment, the present invention will be described in detail.

As shown in Figure 1, the present invention relates to a kind of sole 1 shock-damping structure, comprise several damper elements 3 being formed in sole 1 half sole and/or rear palm region, this some damper element 3 can be formed in separately half sole region, also rear palm region be can be formed in separately, half sole region and rear palm region also can be formed in simultaneously.

Central inventive point of the present invention is the improvement to damper element 3, each damper element 3 all has shock-absorbing main bodies 32 and is coated on the outsourcing edge 31 of shock-absorbing main bodies 32 lateral margin, and this shock-absorbing main bodies 32 and outsourcing edge 31 extend to support the pedal force born needed for shoes all along the vertical direction.

This shock-absorbing main bodies 32 adopts the first elastomeric material to make, and this outsourcing edge 31 adopts the second elastomeric material to make, and the elasticity of this first elastomeric material is better than the second elastomeric material, and the ageing resistace of this second elastomeric material is better than the first elastomeric material.In the specific implementation, this first elastomeric material selects EVA, TPE or rubber, and this second elastomeric material selects TPU or nylon, and this TPU refers to thermoplastic polyurethane, its be adopt Shooting Technique one-body molded go out described outsourcing edge 31.

Because this outsourcing edge 31 needs to bear pedal force with shock-absorbing main bodies 32 together with, so this outsourcing edge 31 and shock-absorbing main bodies 32 have and are in conplane upper bottom surface and are in conplane bottom surface.

It should be noted that, in order to allow outsourcing edge 31 still have preferably elasticity when receiving pedal force, it adopts following technology point to make up:

First is: allow the thickness of outsourcing edge 31 thinner as far as possible, namely allows the thickness of this outsourcing edge 31 be less than the thickness of shock-absorbing main bodies 32.

Second point is: allow the outside wall surface of this outsourcing edge 31 in corrugated from top to bottom, as shown in Figure 1, like this due in corrugated, outsourcing edge 31 can be allowed to increase elasticity further; Particularly, this outsourcing edge 31 internal face is a cylinder shape inner wall face, and this shock-absorbing main bodies 32 is in cylindrical and be close to the internal face of outsourcing edge 31 and be connected.

More preferably, in order to ensure that outsourcing edge 31 can play its most basic anti-aging effect, bottom outside wall surface ripple place, between the outside wall surface of this outsourcing edge 31 and internal face, locating still there is certain thickness second elastomeric material, namely guaranteeing that outsourcing edge 31 can be continuous state.

As shown in Figure 2; the damping shoe that the present invention also protects shock-damping structure thus to be formed; the upper of a shoe 2 that this damping shoe comprises sole 1 and is connected with sole 1; this sole 1 is provided with above-mentioned sole 1 shock-damping structure; in the accompanying drawing shown in Fig. 2, this sole 1 shock-damping structure is only arranged on the rear palm region of sole 1, does not then arrange for its half sole region; but can select arbitrarily to arrange position when actual setting, not by the restriction of this embodiment.

In sum, the present invention, by the setting of shock-absorbing main bodies 32, allows each damper element 3 can have enough elasticity; Again by arranging outsourcing edge 31 outside shock-absorbing main bodies 32, allow each damper element 3 can have enough ageing resistances, namely the present invention is by Overmolded outsourcing edge 31 outside shock-absorbing main bodies 32, utilizes this design feature, and then achieve balance on shock absorbing resilient and ageing resistance two technology point.

Then, the present invention allows outsourcing edge 31 have thinner thickness, mold wave structure from top to bottom in its outside wall surface again, so compensate for outsourcing edge 31 based on Material selec-tion the weakness at shock absorbing resilient, and then create damping performance good and durable sole 1 shock-damping structure and damping shoe.

Above-described embodiment and graphic and non-limiting product form of the present invention and style, any person of an ordinary skill in the technical field, to its suitable change done or modification, all should be considered as not departing from patent category of the present invention.

Claims (7)

1. a sole shock structure, it is characterized in that, comprise several damper elements being formed in half sole and/or rear palm region, each damper element all has shock-absorbing main bodies and is coated on the outsourcing edge of shock-absorbing main bodies lateral margin, this shock-absorbing main bodies and outsourcing edge extend to support the pedal force born needed for shoes all along the vertical direction, this shock-absorbing main bodies adopts the first elastomeric material to make, this outsourcing edge adopts the second elastomeric material to make, the elasticity of this first elastomeric material is better than the second elastomeric material, and the ageing resistace of this second elastomeric material is better than the first elastomeric material.

2. a kind of sole shock structure as claimed in claim 1, is characterized in that, the thickness of this outsourcing edge is less than the thickness of shock-absorbing main bodies.

3. a kind of sole shock structure as claimed in claim 1, is characterized in that, this first elastomeric material selects EVA, TPE or rubber, and this second elastomeric material selects TPU or nylon.

4. a kind of sole shock structure as claimed in claim 1, is characterized in that, this outsourcing edge and shock-absorbing main bodies have and be in conplane upper bottom surface and be in conplane bottom surface.

5. a kind of sole shock structure as claimed in claim 1, is characterized in that, this outsourcing edge outside wall surface is in corrugated from top to bottom, and this outsourcing edge internal face is a cylinder shape inner wall face, and this shock-absorbing main bodies is cylindrical and is close to the internal face of outsourcing edge and is connected.

6. a kind of sole shock structure as claimed in claim 5, is characterized in that, locates still there is certain thickness second elastomeric material between this outsourcing edge outside wall surface and internal face bottom outside wall surface ripple place.

7. comprise a damping shoe for this shock-damping structure, the upper of a shoe that this damping shoe comprises sole and is connected with sole, it is characterized in that, this sole is provided with the sole shock structure as described in any one of claim 1 to 6.